#!/usr/bin/env python3

# The original author of this program, Danmaku2ASS, is StarBrilliant.
# This file is released under General Public License version 3.
# You should have received a copy of General Public License text alongside with
# this program. If not, you can obtain it at http://gnu.org/copyleft/gpl.html .
# This program comes with no warranty, the author will not be resopnsible for
# any damage or problems caused by this program.

# You can obtain a latest copy of Danmaku2ASS at:
#   https://github.com/m13253/danmaku2ass
# Please update to the latest version before complaining.

# pylint: skip-file
# type: ignore

import io
import os
import re
import sys
import json
import math
import time
import random
import gettext
import logging
import argparse
import calendar
import xml.dom.minidom

if sys.version_info < (3,):
    raise RuntimeError("at least Python 3.0 is required")

gettext.install(
    "danmaku2ass",
    os.path.join(
        os.path.dirname(os.path.abspath(os.path.realpath(sys.argv[0] or "locale"))),
        "locale",
    ),
)


def SeekZero(function):
    def decorated_function(file_):
        file_.seek(0)
        try:
            return function(file_)
        finally:
            file_.seek(0)

    return decorated_function


def EOFAsNone(function):
    def decorated_function(*args, **kwargs):
        try:
            return function(*args, **kwargs)
        except EOFError:
            return None

    return decorated_function


@SeekZero
@EOFAsNone
def ProbeCommentFormat(f):
    tmp = f.read(1)
    if tmp == "[":
        return "Acfun"
        # It is unwise to wrap a JSON object in an array!
        # See this: http://haacked.com/archive/2008/11/20/anatomy-of-a-subtle-json-vulnerability.aspx/
        # Do never follow what Acfun developers did!
    elif tmp == "{":
        tmp = f.read(14)
        if tmp == '"status_code":':
            return "Tudou"
        elif tmp.strip().startswith('"result'):
            return "Tudou2"
    elif tmp == "<":
        tmp = f.read(1)
        if tmp == "?":
            tmp = f.read(38)
            if tmp == 'xml version="1.0" encoding="UTF-8"?><p':
                return "Niconico"
            elif tmp == 'xml version="1.0" encoding="UTF-8"?><i':
                return "Bilibili"
            elif tmp == 'xml version="2.0" encoding="UTF-8"?><i':
                return "Bilibili2"
            elif tmp == 'xml version="1.0" encoding="utf-8"?><i':
                return "Bilibili"  # tucao.cc, with the same file format as Bilibili
            elif tmp == 'xml version="1.0" encoding="Utf-8"?>\n<':
                return "Bilibili"  # Komica, with the same file format as Bilibili
            elif tmp == 'xml version="1.0" encoding="UTF-8"?>\n<':
                tmp = f.read(20)
                if tmp == "!-- BoonSutazioData=":
                    return "Niconico"  # Niconico videos downloaded with NicoFox
                else:
                    return "MioMio"
        elif tmp == "p":
            return "Niconico"  # Himawari Douga, with the same file format as Niconico Douga


#
# ReadComments**** protocol
#
# Input:
#     f:         Input file
#     fontsize:  Default font size
#
# Output:
#     yield a tuple:
#         (timeline, timestamp, no, comment, pos, color, size, height, width)
#     timeline:  The position when the comment is replayed
#     timestamp: The UNIX timestamp when the comment is submitted
#     no:        A sequence of 1, 2, 3, ..., used for sorting
#     comment:   The content of the comment
#     pos:       0 for regular moving comment,
#                1 for bottom centered comment,
#                2 for top centered comment,
#                3 for reversed moving comment
#     color:     Font color represented in 0xRRGGBB,
#                e.g. 0xffffff for white
#     size:      Font size
#     height:    The estimated height in pixels
#                i.e. (comment.count('\n')+1)*size
#     width:     The estimated width in pixels
#                i.e. CalculateLength(comment)*size
#
# After implementing ReadComments****, make sure to update ProbeCommentFormat
# and CommentFormatMap.
#


def ReadCommentsNiconico(f, fontsize):
    NiconicoColorMap = {
        "red": 0xFF0000,
        "pink": 0xFF8080,
        "orange": 0xFFCC00,
        "yellow": 0xFFFF00,
        "green": 0x00FF00,
        "cyan": 0x00FFFF,
        "blue": 0x0000FF,
        "purple": 0xC000FF,
        "black": 0x000000,
        "niconicowhite": 0xCCCC99,
        "white2": 0xCCCC99,
        "truered": 0xCC0033,
        "red2": 0xCC0033,
        "passionorange": 0xFF6600,
        "orange2": 0xFF6600,
        "madyellow": 0x999900,
        "yellow2": 0x999900,
        "elementalgreen": 0x00CC66,
        "green2": 0x00CC66,
        "marineblue": 0x33FFCC,
        "blue2": 0x33FFCC,
        "nobleviolet": 0x6633CC,
        "purple2": 0x6633CC,
    }
    dom = xml.dom.minidom.parse(f)
    comment_element = dom.getElementsByTagName("chat")
    for comment in comment_element:
        try:
            c = str(comment.childNodes[0].wholeText)
            if c.startswith("/"):
                continue  # ignore advanced comments
            pos = 0
            color = 0xFFFFFF
            size = fontsize
            for mailstyle in str(comment.getAttribute("mail")).split():
                if mailstyle == "ue":
                    pos = 1
                elif mailstyle == "shita":
                    pos = 2
                elif mailstyle == "big":
                    size = fontsize * 1.44
                elif mailstyle == "small":
                    size = fontsize * 0.64
                elif mailstyle in NiconicoColorMap:
                    color = NiconicoColorMap[mailstyle]
            yield (
                max(int(comment.getAttribute("vpos")), 0) * 0.01,
                int(comment.getAttribute("date")),
                int(comment.getAttribute("no")),
                c,
                pos,
                color,
                size,
                (c.count("\n") + 1) * size,
                CalculateLength(c) * size,
            )
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %s") % comment.toxml())
            continue


def ReadCommentsAcfun(f, fontsize):
    # comment_element = json.load(f)
    # after load acfun comment json file as python list, flatten the list
    # comment_element = [c for sublist in comment_element for c in sublist]
    comment_elements = json.load(f)
    comment_element = comment_elements[2]
    for i, comment in enumerate(comment_element):
        try:
            p = str(comment["c"]).split(",")
            assert len(p) >= 6
            assert p[2] in ("1", "2", "4", "5", "7")
            size = int(p[3]) * fontsize / 25.0
            if p[2] != "7":
                c = str(comment["m"]).replace("\\r", "\n").replace("\r", "\n")
                yield (
                    float(p[0]),
                    int(p[5]),
                    i,
                    c,
                    {"1": 0, "2": 0, "4": 2, "5": 1}[p[2]],
                    int(p[1]),
                    size,
                    (c.count("\n") + 1) * size,
                    CalculateLength(c) * size,
                )
            else:
                c = dict(json.loads(comment["m"]))
                yield (float(p[0]), int(p[5]), i, c, "acfunpos", int(p[1]), size, 0, 0)
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %r") % comment)
            continue


def ReadCommentsBilibili(f, fontsize):
    dom = xml.dom.minidom.parse(f)
    comment_element = dom.getElementsByTagName("d")
    for i, comment in enumerate(comment_element):
        try:
            p = str(comment.getAttribute("p")).split(",")
            assert len(p) >= 5
            assert p[1] in ("1", "4", "5", "6", "7", "8")
            if comment.childNodes.length > 0:
                if p[1] in ("1", "4", "5", "6"):
                    c = str(comment.childNodes[0].wholeText).replace("/n", "\n")
                    size = int(p[2]) * fontsize / 25.0
                    yield (
                        float(p[0]),
                        int(p[4]),
                        i,
                        c,
                        {"1": 0, "4": 2, "5": 1, "6": 3}[p[1]],
                        int(p[3]),
                        size,
                        (c.count("\n") + 1) * size,
                        CalculateLength(c) * size,
                    )
                elif p[1] == "7":  # positioned comment
                    c = str(comment.childNodes[0].wholeText)
                    yield (
                        float(p[0]),
                        int(p[4]),
                        i,
                        c,
                        "bilipos",
                        int(p[3]),
                        int(p[2]),
                        0,
                        0,
                    )
                elif p[1] == "8":
                    pass  # ignore scripted comment
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %s") % comment.toxml())
            continue


def ReadCommentsBilibili2(f, fontsize):
    dom = xml.dom.minidom.parse(f)
    comment_element = dom.getElementsByTagName("d")
    for i, comment in enumerate(comment_element):
        try:
            p = str(comment.getAttribute("p")).split(",")
            assert len(p) >= 7
            assert p[3] in ("1", "4", "5", "6", "7", "8")
            if comment.childNodes.length > 0:
                time = float(p[2]) / 1000.0
                if p[3] in ("1", "4", "5", "6"):
                    c = str(comment.childNodes[0].wholeText).replace("/n", "\n")
                    size = int(p[4]) * fontsize / 25.0
                    yield (
                        time,
                        int(p[6]),
                        i,
                        c,
                        {"1": 0, "4": 2, "5": 1, "6": 3}[p[3]],
                        int(p[5]),
                        size,
                        (c.count("\n") + 1) * size,
                        CalculateLength(c) * size,
                    )
                elif p[3] == "7":  # positioned comment
                    c = str(comment.childNodes[0].wholeText)
                    yield (time, int(p[6]), i, c, "bilipos", int(p[5]), int(p[4]), 0, 0)
                elif p[3] == "8":
                    pass  # ignore scripted comment
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %s") % comment.toxml())
            continue


def ReadCommentsTudou(f, fontsize):
    comment_element = json.load(f)
    for i, comment in enumerate(comment_element["comment_list"]):
        try:
            assert comment["pos"] in (3, 4, 6)
            c = str(comment["data"])
            assert comment["size"] in (0, 1, 2)
            size = {0: 0.64, 1: 1, 2: 1.44}[comment["size"]] * fontsize
            yield (
                int(comment["replay_time"] * 0.001),
                int(comment["commit_time"]),
                i,
                c,
                {3: 0, 4: 2, 6: 1}[comment["pos"]],
                int(comment["color"]),
                size,
                (c.count("\n") + 1) * size,
                CalculateLength(c) * size,
            )
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %r") % comment)
            continue


def ReadCommentsTudou2(f, fontsize):
    comment_element = json.load(f)
    for i, comment in enumerate(comment_element["result"]):
        try:
            c = str(comment["content"])
            prop = json.loads(str(comment["propertis"]) or "{}")
            size = int(prop.get("size", 1))
            assert size in (0, 1, 2)
            size = {0: 0.64, 1: 1, 2: 1.44}[size] * fontsize
            pos = int(prop.get("pos", 3))
            assert pos in (0, 3, 4, 6)
            yield (
                int(comment["playat"] * 0.001),
                int(comment["createtime"] * 0.001),
                i,
                c,
                {0: 0, 3: 0, 4: 2, 6: 1}[pos],
                int(prop.get("color", 0xFFFFFF)),
                size,
                (c.count("\n") + 1) * size,
                CalculateLength(c) * size,
            )
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %r") % comment)
            continue


def ReadCommentsMioMio(f, fontsize):
    NiconicoColorMap = {
        "red": 0xFF0000,
        "pink": 0xFF8080,
        "orange": 0xFFC000,
        "yellow": 0xFFFF00,
        "green": 0x00FF00,
        "cyan": 0x00FFFF,
        "blue": 0x0000FF,
        "purple": 0xC000FF,
        "black": 0x000000,
    }
    dom = xml.dom.minidom.parse(f)
    comment_element = dom.getElementsByTagName("data")
    for i, comment in enumerate(comment_element):
        try:
            message = comment.getElementsByTagName("message")[0]
            c = str(message.childNodes[0].wholeText)
            pos = 0
            size = int(message.getAttribute("fontsize")) * fontsize / 25.0
            yield (
                float(
                    comment.getElementsByTagName("playTime")[0].childNodes[0].wholeText
                ),
                int(
                    calendar.timegm(
                        time.strptime(
                            comment.getElementsByTagName("times")[0]
                            .childNodes[0]
                            .wholeText,
                            "%Y-%m-%d %H:%M:%S",
                        )
                    )
                )
                - 28800,
                i,
                c,
                {"1": 0, "4": 2, "5": 1}[message.getAttribute("mode")],
                int(message.getAttribute("color")),
                size,
                (c.count("\n") + 1) * size,
                CalculateLength(c) * size,
            )
        except (AssertionError, AttributeError, IndexError, TypeError, ValueError):
            logging.warning(_("Invalid comment: %s") % comment.toxml())
            continue


CommentFormatMap = {
    "Niconico": ReadCommentsNiconico,
    "Acfun": ReadCommentsAcfun,
    "Bilibili": ReadCommentsBilibili,
    "Bilibili2": ReadCommentsBilibili2,
    "Tudou": ReadCommentsTudou,
    "Tudou2": ReadCommentsTudou2,
    "MioMio": ReadCommentsMioMio,
}


def WriteCommentBilibiliPositioned(f, c, width, height, styleid):
    # BiliPlayerSize = (512, 384)  # Bilibili player version 2010
    # BiliPlayerSize = (540, 384)  # Bilibili player version 2012
    BiliPlayerSize = (672, 438)  # Bilibili player version 2014
    ZoomFactor = GetZoomFactor(BiliPlayerSize, (width, height))

    def GetPosition(InputPos, isHeight):
        isHeight = int(isHeight)  # True -> 1
        if isinstance(InputPos, int):
            return ZoomFactor[0] * InputPos + ZoomFactor[isHeight + 1]
        elif isinstance(InputPos, float):
            if InputPos > 1:
                return ZoomFactor[0] * InputPos + ZoomFactor[isHeight + 1]
            else:
                return (
                    BiliPlayerSize[isHeight] * ZoomFactor[0] * InputPos
                    + ZoomFactor[isHeight + 1]
                )
        else:
            try:
                InputPos = int(InputPos)
            except ValueError:
                InputPos = float(InputPos)
            return GetPosition(InputPos, isHeight)

    try:
        comment_args = safe_list(json.loads(c[3]))
        text = ASSEscape(str(comment_args[4]).replace("/n", "\n"))
        from_x = comment_args.get(0, 0)
        from_y = comment_args.get(1, 0)
        to_x = comment_args.get(7, from_x)
        to_y = comment_args.get(8, from_y)
        from_x = GetPosition(from_x, False)
        from_y = GetPosition(from_y, True)
        to_x = GetPosition(to_x, False)
        to_y = GetPosition(to_y, True)
        alpha = safe_list(str(comment_args.get(2, "1")).split("-"))
        from_alpha = float(alpha.get(0, 1))
        to_alpha = float(alpha.get(1, from_alpha))
        from_alpha = 255 - round(from_alpha * 255)
        to_alpha = 255 - round(to_alpha * 255)
        rotate_z = int(comment_args.get(5, 0))
        rotate_y = int(comment_args.get(6, 0))
        lifetime = float(comment_args.get(3, 4500))
        duration = int(comment_args.get(9, lifetime * 1000))
        delay = int(comment_args.get(10, 0))
        fontface = comment_args.get(12)
        isborder = comment_args.get(11, "true")
        from_rotarg = ConvertFlashRotation(
            rotate_y, rotate_z, from_x, from_y, width, height
        )
        to_rotarg = ConvertFlashRotation(rotate_y, rotate_z, to_x, to_y, width, height)
        styles = ["\\org(%d, %d)" % (width / 2, height / 2)]
        if from_rotarg[0:2] == to_rotarg[0:2]:
            styles.append("\\pos(%.0f, %.0f)" % (from_rotarg[0:2]))
        else:
            styles.append(
                "\\move(%.0f, %.0f, %.0f, %.0f, %.0f, %.0f)"
                % (from_rotarg[0:2] + to_rotarg[0:2] + (delay, delay + duration))
            )
        styles.append(
            "\\frx%.0f\\fry%.0f\\frz%.0f\\fscx%.0f\\fscy%.0f" % (from_rotarg[2:7])
        )
        if (from_x, from_y) != (to_x, to_y):
            styles.append("\\t(%d, %d, " % (delay, delay + duration))
            styles.append(
                "\\frx%.0f\\fry%.0f\\frz%.0f\\fscx%.0f\\fscy%.0f" % (to_rotarg[2:7])
            )
            styles.append(")")
        if fontface:
            styles.append("\\fn%s" % ASSEscape(fontface))
        styles.append("\\fs%.0f" % (c[6] * ZoomFactor[0]))
        if c[5] != 0xFFFFFF:
            styles.append("\\c&H%s&" % ConvertColor(c[5]))
            if c[5] == 0x000000:
                styles.append("\\3c&HFFFFFF&")
        if from_alpha == to_alpha:
            styles.append("\\alpha&H%02X" % from_alpha)
        elif (from_alpha, to_alpha) == (255, 0):
            styles.append("\\fad(%.0f,0)" % (lifetime * 1000))
        elif (from_alpha, to_alpha) == (0, 255):
            styles.append("\\fad(0, %.0f)" % (lifetime * 1000))
        else:
            styles.append(
                "\\fade(%(from_alpha)d, %(to_alpha)d, %(to_alpha)d, 0, %(end_time).0f, %(end_time).0f, %(end_time).0f)"
                % {
                    "from_alpha": from_alpha,
                    "to_alpha": to_alpha,
                    "end_time": lifetime * 1000,
                }
            )
        if isborder == "false":
            styles.append("\\bord0")
        f.write(
            "Dialogue: -1,%(start)s,%(end)s,%(styleid)s,,0,0,0,,{%(styles)s}%(text)s\n"
            % {
                "start": ConvertTimestamp(c[0]),
                "end": ConvertTimestamp(c[0] + lifetime),
                "styles": "".join(styles),
                "text": text,
                "styleid": styleid,
            }
        )
    except (IndexError, ValueError) as e:
        try:
            logging.warning(_("Invalid comment: %r") % c[3])
        except IndexError:
            logging.warning(_("Invalid comment: %r") % c)


def WriteCommentAcfunPositioned(f, c, width, height, styleid):
    AcfunPlayerSize = (560, 400)
    ZoomFactor = GetZoomFactor(AcfunPlayerSize, (width, height))

    def GetPosition(InputPos, isHeight):
        isHeight = int(isHeight)  # True -> 1
        return (
            AcfunPlayerSize[isHeight] * ZoomFactor[0] * InputPos * 0.001
            + ZoomFactor[isHeight + 1]
        )

    def GetTransformStyles(
        x=None,
        y=None,
        scale_x=None,
        scale_y=None,
        rotate_z=None,
        rotate_y=None,
        color=None,
        alpha=None,
    ):
        styles = []
        out_x, out_y = x, y
        if rotate_z is not None and rotate_y is not None:
            assert x is not None
            assert y is not None
            rotarg = ConvertFlashRotation(rotate_y, rotate_z, x, y, width, height)
            out_x, out_y = rotarg[0:2]
            if scale_x is None:
                scale_x = 1
            if scale_y is None:
                scale_y = 1
            styles.append(
                "\\frx%.0f\\fry%.0f\\frz%.0f\\fscx%.0f\\fscy%.0f"
                % (rotarg[2:5] + (rotarg[5] * scale_x, rotarg[6] * scale_y))
            )
        else:
            if scale_x is not None:
                styles.append("\\fscx%.0f" % (scale_x * 100))
            if scale_y is not None:
                styles.append("\\fscy%.0f" % (scale_y * 100))
        if color is not None:
            styles.append("\\c&H%s&" % ConvertColor(color))
            if color == 0x000000:
                styles.append("\\3c&HFFFFFF&")
        if alpha is not None:
            alpha = 255 - round(alpha * 255)
            styles.append("\\alpha&H%02X" % alpha)
        return out_x, out_y, styles

    def FlushCommentLine(f, text, styles, start_time, end_time, styleid):
        if end_time > start_time:
            f.write(
                "Dialogue: -1,%(start)s,%(end)s,%(styleid)s,,0,0,0,,{%(styles)s}%(text)s\n"
                % {
                    "start": ConvertTimestamp(start_time),
                    "end": ConvertTimestamp(end_time),
                    "styles": "".join(styles),
                    "text": text,
                    "styleid": styleid,
                }
            )

    try:
        comment_args = c[3]
        text = ASSEscape(str(comment_args["n"]).replace("\r", "\n"))
        common_styles = ["\\org(%d, %d)" % (width / 2, height / 2)]
        anchor = {0: 7, 1: 8, 2: 9, 3: 4, 4: 5, 5: 6, 6: 1, 7: 2, 8: 3}.get(
            comment_args.get("c", 0), 7
        )
        if anchor != 7:
            common_styles.append("\\an%s" % anchor)
        font = comment_args.get("w")
        if font:
            font = dict(font)
            fontface = font.get("f")
            if fontface:
                common_styles.append("\\fn%s" % ASSEscape(str(fontface)))
            fontbold = bool(font.get("b"))
            if fontbold:
                common_styles.append("\\b1")
        common_styles.append("\\fs%.0f" % (c[6] * ZoomFactor[0]))
        isborder = bool(comment_args.get("b", True))
        if not isborder:
            common_styles.append("\\bord0")
        to_pos = dict(comment_args.get("p", {"x": 0, "y": 0}))
        to_x = round(GetPosition(int(to_pos.get("x", 0)), False))
        to_y = round(GetPosition(int(to_pos.get("y", 0)), True))
        to_scale_x = float(comment_args.get("e", 1.0))
        to_scale_y = float(comment_args.get("f", 1.0))
        to_rotate_z = float(comment_args.get("r", 0.0))
        to_rotate_y = float(comment_args.get("k", 0.0))
        to_color = c[5]
        to_alpha = float(comment_args.get("a", 1.0))
        from_time = float(comment_args.get("t", 0.0))
        action_time = float(comment_args.get("l", 3.0))
        actions = list(comment_args.get("z", []))
        to_out_x, to_out_y, transform_styles = GetTransformStyles(
            to_x,
            to_y,
            to_scale_x,
            to_scale_y,
            to_rotate_z,
            to_rotate_y,
            to_color,
            to_alpha,
        )
        FlushCommentLine(
            f,
            text,
            common_styles
            + ["\\pos(%.0f, %.0f)" % (to_out_x, to_out_y)]
            + transform_styles,
            c[0] + from_time,
            c[0] + from_time + action_time,
            styleid,
        )
        action_styles = transform_styles
        for action in actions:
            action = dict(action)
            from_x, from_y = to_x, to_y
            from_out_x, from_out_y = to_out_x, to_out_y
            from_scale_x, from_scale_y = to_scale_x, to_scale_y
            from_rotate_z, from_rotate_y = to_rotate_z, to_rotate_y
            from_color, from_alpha = to_color, to_alpha
            transform_styles, action_styles = action_styles, []
            from_time += action_time
            action_time = float(action.get("l", 0.0))
            if "x" in action:
                to_x = round(GetPosition(int(action["x"]), False))
            if "y" in action:
                to_y = round(GetPosition(int(action["y"]), True))
            if "f" in action:
                to_scale_x = float(action["f"])
            if "g" in action:
                to_scale_y = float(action["g"])
            if "c" in action:
                to_color = int(action["c"])
            if "t" in action:
                to_alpha = float(action["t"])
            if "d" in action:
                to_rotate_z = float(action["d"])
            if "e" in action:
                to_rotate_y = float(action["e"])
            to_out_x, to_out_y, action_styles = GetTransformStyles(
                to_x,
                to_y,
                from_scale_x,
                from_scale_y,
                to_rotate_z,
                to_rotate_y,
                from_color,
                from_alpha,
            )
            if (from_out_x, from_out_y) == (to_out_x, to_out_y):
                pos_style = "\\pos(%.0f, %.0f)" % (to_out_x, to_out_y)
            else:
                pos_style = "\\move(%.0f, %.0f, %.0f, %.0f)" % (
                    from_out_x,
                    from_out_y,
                    to_out_x,
                    to_out_y,
                )
            styles = common_styles + transform_styles
            styles.append(pos_style)
            if action_styles:
                styles.append("\\t(%s)" % ("".join(action_styles)))
            FlushCommentLine(
                f,
                text,
                styles,
                c[0] + from_time,
                c[0] + from_time + action_time,
                styleid,
            )
    except (IndexError, ValueError) as e:
        logging.warning(_("Invalid comment: %r") % c[3])


# Result: (f, dx, dy)
# To convert: NewX = f*x+dx, NewY = f*y+dy
def GetZoomFactor(SourceSize, TargetSize):
    try:
        if (SourceSize, TargetSize) == GetZoomFactor.Cached_Size:
            return GetZoomFactor.Cached_Result
    except AttributeError:
        pass
    GetZoomFactor.Cached_Size = (SourceSize, TargetSize)
    try:
        SourceAspect = SourceSize[0] / SourceSize[1]
        TargetAspect = TargetSize[0] / TargetSize[1]
        if TargetAspect < SourceAspect:  # narrower
            ScaleFactor = TargetSize[0] / SourceSize[0]
            GetZoomFactor.Cached_Result = (
                ScaleFactor,
                0,
                (TargetSize[1] - TargetSize[0] / SourceAspect) / 2,
            )
        elif TargetAspect > SourceAspect:  # wider
            ScaleFactor = TargetSize[1] / SourceSize[1]
            GetZoomFactor.Cached_Result = (
                ScaleFactor,
                (TargetSize[0] - TargetSize[1] * SourceAspect) / 2,
                0,
            )
        else:
            GetZoomFactor.Cached_Result = (TargetSize[0] / SourceSize[0], 0, 0)
        return GetZoomFactor.Cached_Result
    except ZeroDivisionError:
        GetZoomFactor.Cached_Result = (1, 0, 0)
        return GetZoomFactor.Cached_Result


# Calculation is based on https://github.com/jabbany/CommentCoreLibrary/issues/5#issuecomment-40087282
#                     and https://github.com/m13253/danmaku2ass/issues/7#issuecomment-41489422
# ASS FOV = width*4/3.0
# But Flash FOV = width/math.tan(100*math.pi/360.0)/2 will be used instead
# Result: (transX, transY, rotX, rotY, rotZ, scaleX, scaleY)
def ConvertFlashRotation(rotY, rotZ, X, Y, width, height):
    def WrapAngle(deg):
        return 180 - ((180 - deg) % 360)

    rotY = WrapAngle(rotY)
    rotZ = WrapAngle(rotZ)
    if rotY in (90, -90):
        rotY -= 1
    if rotY == 0 or rotZ == 0:
        outX = 0
        outY = -rotY  # Positive value means clockwise in Flash
        outZ = -rotZ
        rotY *= math.pi / 180.0
        rotZ *= math.pi / 180.0
    else:
        rotY *= math.pi / 180.0
        rotZ *= math.pi / 180.0
        outY = (
            math.atan2(-math.sin(rotY) * math.cos(rotZ), math.cos(rotY)) * 180 / math.pi
        )
        outZ = (
            math.atan2(-math.cos(rotY) * math.sin(rotZ), math.cos(rotZ)) * 180 / math.pi
        )
        outX = math.asin(math.sin(rotY) * math.sin(rotZ)) * 180 / math.pi
    trX = (
        (X * math.cos(rotZ) + Y * math.sin(rotZ)) / math.cos(rotY)
        + (1 - math.cos(rotZ) / math.cos(rotY)) * width / 2
        - math.sin(rotZ) / math.cos(rotY) * height / 2
    )
    trY = (
        Y * math.cos(rotZ)
        - X * math.sin(rotZ)
        + math.sin(rotZ) * width / 2
        + (1 - math.cos(rotZ)) * height / 2
    )
    trZ = (trX - width / 2) * math.sin(rotY)
    FOV = width * math.tan(2 * math.pi / 9.0) / 2
    try:
        scaleXY = FOV / (FOV + trZ)
    except ZeroDivisionError:
        logging.error("Rotation makes object behind the camera: trZ == %.0f" % trZ)
        scaleXY = 1
    trX = (trX - width / 2) * scaleXY + width / 2
    trY = (trY - height / 2) * scaleXY + height / 2
    if scaleXY < 0:
        scaleXY = -scaleXY
        outX += 180
        outY += 180
        logging.error(
            "Rotation makes object behind the camera: trZ == %.0f < %.0f" % (trZ, FOV)
        )
    return (
        trX,
        trY,
        WrapAngle(outX),
        WrapAngle(outY),
        WrapAngle(outZ),
        scaleXY * 100,
        scaleXY * 100,
    )


def ProcessComments(
    comments,
    f,
    width,
    height,
    bottomReserved,
    fontface,
    fontsize,
    alpha,
    duration_marquee,
    duration_still,
    filters_regex,
    reduced,
    progress_callback,
):
    styleid = "Danmaku2ASS_%04x" % random.randint(0, 0xFFFF)
    WriteASSHead(f, width, height, fontface, fontsize, alpha, styleid)
    rows = [[None] * (height - bottomReserved + 1) for i in range(4)]
    for idx, i in enumerate(comments):
        if progress_callback and idx % 1000 == 0:
            progress_callback(idx, len(comments))
        if isinstance(i[4], int):
            skip = False
            for filter_regex in filters_regex:
                if filter_regex and filter_regex.search(i[3]):
                    skip = True
                    break
            if skip:
                continue
            row = 0
            rowmax = height - bottomReserved - i[7]
            while row <= rowmax:
                freerows = TestFreeRows(
                    rows,
                    i,
                    row,
                    width,
                    height,
                    bottomReserved,
                    duration_marquee,
                    duration_still,
                )
                if freerows >= i[7]:
                    MarkCommentRow(rows, i, row)
                    WriteComment(
                        f,
                        i,
                        row,
                        width,
                        height,
                        bottomReserved,
                        fontsize,
                        duration_marquee,
                        duration_still,
                        styleid,
                    )
                    break
                else:
                    row += freerows or 1
            else:
                if not reduced:
                    row = FindAlternativeRow(rows, i, height, bottomReserved)
                    MarkCommentRow(rows, i, row)
                    WriteComment(
                        f,
                        i,
                        row,
                        width,
                        height,
                        bottomReserved,
                        fontsize,
                        duration_marquee,
                        duration_still,
                        styleid,
                    )
        elif i[4] == "bilipos":
            WriteCommentBilibiliPositioned(f, i, width, height, styleid)
        elif i[4] == "acfunpos":
            WriteCommentAcfunPositioned(f, i, width, height, styleid)
        else:
            logging.warning(_("Invalid comment: %r") % i[3])
    if progress_callback:
        progress_callback(len(comments), len(comments))


def TestFreeRows(
    rows, c, row, width, height, bottomReserved, duration_marquee, duration_still
):
    res = 0
    rowmax = height - bottomReserved
    targetRow = None
    if c[4] in (1, 2):
        while row < rowmax and res < c[7]:
            if targetRow != rows[c[4]][row]:
                targetRow = rows[c[4]][row]
                if targetRow and targetRow[0] + duration_still > c[0]:
                    break
            row += 1
            res += 1
    else:
        try:
            thresholdTime = c[0] - duration_marquee * (1 - width / (c[8] + width))
        except ZeroDivisionError:
            thresholdTime = c[0] - duration_marquee
        while row < rowmax and res < c[7]:
            if targetRow != rows[c[4]][row]:
                targetRow = rows[c[4]][row]
                try:
                    if targetRow and (
                        targetRow[0] > thresholdTime
                        or targetRow[0]
                        + targetRow[8] * duration_marquee / (targetRow[8] + width)
                        > c[0]
                    ):
                        break
                except ZeroDivisionError:
                    pass
            row += 1
            res += 1
    return res


def FindAlternativeRow(rows, c, height, bottomReserved):
    res = 0
    for row in range(height - bottomReserved - math.ceil(c[7])):
        if not rows[c[4]][row]:
            return row
        elif rows[c[4]][row][0] < rows[c[4]][res][0]:
            res = row
    return res


def MarkCommentRow(rows, c, row):
    try:
        for i in range(row, row + math.ceil(c[7])):
            rows[c[4]][i] = c
    except IndexError:
        pass


def WriteASSHead(f, width, height, fontface, fontsize, alpha, styleid):
    f.write(
        """[Script Info]
; Script generated by Danmaku2ASS
; https://github.com/m13253/danmaku2ass
Script Updated By: Danmaku2ASS (https://github.com/m13253/danmaku2ass)
ScriptType: v4.00+
PlayResX: %(width)d
PlayResY: %(height)d
Aspect Ratio: %(width)d:%(height)d
Collisions: Normal
WrapStyle: 2
ScaledBorderAndShadow: yes
YCbCr Matrix: TV.601
[V4+ Styles]
Format: Name, Fontname, Fontsize, PrimaryColour, SecondaryColour, OutlineColour, BackColour, Bold, Italic, Underline, StrikeOut, ScaleX, ScaleY, Spacing, Angle, BorderStyle, Outline, Shadow, Alignment, MarginL, MarginR, MarginV, Encoding
Style: %(styleid)s, %(fontface)s, %(fontsize).0f, &H%(alpha)02XFFFFFF, &H%(alpha)02XFFFFFF, &H%(alpha)02X000000, &H%(alpha)02X000000, 0, 0, 0, 0, 100, 100, 0.00, 0.00, 1, %(outline).0f, 0, 7, 0, 0, 0, 0
[Events]
Format: Layer, Start, End, Style, Name, MarginL, MarginR, MarginV, Effect, Text
"""
        % {
            "width": width,
            "height": height,
            "fontface": fontface,
            "fontsize": fontsize,
            "alpha": 255 - round(alpha * 255),
            "outline": max(fontsize / 25.0, 1),
            "styleid": styleid,
        }
    )


def WriteComment(
    f,
    c,
    row,
    width,
    height,
    bottomReserved,
    fontsize,
    duration_marquee,
    duration_still,
    styleid,
):
    text = ASSEscape(c[3])
    styles = []
    if c[4] == 1:
        styles.append(
            "\\an8\\pos(%(halfwidth)d, %(row)d)" % {"halfwidth": width / 2, "row": row}
        )
        duration = duration_still
    elif c[4] == 2:
        styles.append(
            "\\an2\\pos(%(halfwidth)d, %(row)d)"
            % {"halfwidth": width / 2, "row": ConvertType2(row, height, bottomReserved)}
        )
        duration = duration_still
    elif c[4] == 3:
        styles.append(
            "\\move(%(neglen)d, %(row)d, %(width)d, %(row)d)"
            % {"width": width, "row": row, "neglen": -math.ceil(c[8])}
        )
        duration = duration_marquee
    else:
        styles.append(
            "\\move(%(width)d, %(row)d, %(neglen)d, %(row)d)"
            % {"width": width, "row": row, "neglen": -math.ceil(c[8])}
        )
        duration = duration_marquee
    if not (-1 < c[6] - fontsize < 1):
        styles.append("\\fs%.0f" % c[6])
    if c[5] != 0xFFFFFF:
        styles.append("\\c&H%s&" % ConvertColor(c[5]))
        if c[5] == 0x000000:
            styles.append("\\3c&HFFFFFF&")
    f.write(
        "Dialogue: 2,%(start)s,%(end)s,%(styleid)s,,0000,0000,0000,,{%(styles)s}%(text)s\n"
        % {
            "start": ConvertTimestamp(c[0]),
            "end": ConvertTimestamp(c[0] + duration),
            "styles": "".join(styles),
            "text": text,
            "styleid": styleid,
        }
    )


def ASSEscape(s):
    def ReplaceLeadingSpace(s):
        sstrip = s.strip(" ")
        slen = len(s)
        if slen == len(sstrip):
            return s
        else:
            llen = slen - len(s.lstrip(" "))
            rlen = slen - len(s.rstrip(" "))
            return "".join(("\u2007" * llen, sstrip, "\u2007" * rlen))

    return "\\N".join(
        (
            ReplaceLeadingSpace(i) or " "
            for i in str(s)
            .replace("\\", "\\\\")
            .replace("{", "\\{")
            .replace("}", "\\}")
            .split("\n")
        )
    )


def CalculateLength(s):
    return max(map(len, s.split("\n")))  # May not be accurate


def ConvertTimestamp(timestamp):
    timestamp = round(timestamp * 100.0)
    hour, minute = divmod(timestamp, 360000)
    minute, second = divmod(minute, 6000)
    second, centsecond = divmod(second, 100)
    return "%d:%02d:%02d.%02d" % (int(hour), int(minute), int(second), int(centsecond))


def ConvertColor(RGB, width=1280, height=576):
    if RGB == 0x000000:
        return "000000"
    elif RGB == 0xFFFFFF:
        return "FFFFFF"
    R = (RGB >> 16) & 0xFF
    G = (RGB >> 8) & 0xFF
    B = RGB & 0xFF
    if width < 1280 and height < 576:
        return "%02X%02X%02X" % (B, G, R)
    else:  # VobSub always uses BT.601 colorspace, convert to BT.709
        ClipByte = lambda x: 255 if x > 255 else 0 if x < 0 else round(x)
        return "%02X%02X%02X" % (
            ClipByte(
                R * 0.00956384088080656
                + G * 0.03217254540203729
                + B * 0.95826361371715607
            ),
            ClipByte(
                R * -0.10493933142075390
                + G * 1.17231478191855154
                + B * -0.06737545049779757
            ),
            ClipByte(
                R * 0.91348912373987645
                + G * 0.07858536372532510
                + B * 0.00792551253479842
            ),
        )


def ConvertType2(row, height, bottomReserved):
    return height - bottomReserved - row


def ConvertToFile(filename_or_file, *args, **kwargs):
    if isinstance(filename_or_file, bytes):
        filename_or_file = str(bytes(filename_or_file).decode("utf-8", "replace"))
    if isinstance(filename_or_file, str):
        return open(filename_or_file, *args, **kwargs)
    else:
        return filename_or_file


def FilterBadChars(f):
    s = f.read()
    s = re.sub("[\\x00-\\x08\\x0b\\x0c\\x0e-\\x1f]", "\ufffd", s)
    return io.StringIO(s)


class safe_list(list):
    def get(self, index, default=None):
        try:
            return self[index]
        except IndexError:
            return default


def export(func):
    global __all__
    try:
        __all__.append(func.__name__)
    except NameError:
        __all__ = [func.__name__]
    return func


@export
def Danmaku2ASS(
    input_files,
    input_format,
    output_file,
    stage_width,
    stage_height,
    reserve_blank=0,
    font_face=_("(FONT) sans-serif")[7:],
    font_size=25.0,
    text_opacity=1.0,
    duration_marquee=5.0,
    duration_still=5.0,
    comment_filter=None,
    comment_filters_file=None,
    is_reduce_comments=False,
    progress_callback=None,
):
    comment_filters = [comment_filter]
    if comment_filters_file:
        with open(comment_filters_file, "r") as f:
            d = f.readlines()
            comment_filters.extend([i.strip() for i in d])
    filters_regex = []
    for comment_filter in comment_filters:
        try:
            if comment_filter:
                filters_regex.append(re.compile(comment_filter))
        except:
            raise ValueError(_("Invalid regular expression: %s") % comment_filter)
    fo = None
    comments = ReadComments(input_files, input_format, font_size)
    try:
        if output_file:
            fo = ConvertToFile(
                output_file, "w", encoding="utf-8-sig", errors="replace", newline="\r\n"
            )
        else:
            fo = sys.stdout
        ProcessComments(
            comments,
            fo,
            stage_width,
            stage_height,
            reserve_blank,
            font_face,
            font_size,
            text_opacity,
            duration_marquee,
            duration_still,
            filters_regex,
            is_reduce_comments,
            progress_callback,
        )
    finally:
        if output_file and fo != output_file:
            fo.close()


@export
def ReadComments(input_files, input_format, font_size=25.0, progress_callback=None):
    if isinstance(input_files, bytes):
        input_files = str(bytes(input_files).decode("utf-8", "replace"))
    if isinstance(input_files, str):
        input_files = [input_files]
    else:
        input_files = list(input_files)
    comments = []
    for idx, i in enumerate(input_files):
        if progress_callback:
            progress_callback(idx, len(input_files))
        with ConvertToFile(i, "r", encoding="utf-8", errors="replace") as f:
            s = f.read()
            str_io = io.StringIO(s)
            if input_format == "autodetect":
                CommentProcessor = GetCommentProcessor(str_io)
                if not CommentProcessor:
                    raise ValueError(_("Failed to detect comment file format: %s") % i)
            else:
                CommentProcessor = CommentFormatMap.get(input_format)
                if not CommentProcessor:
                    raise ValueError(
                        _("Unknown comment file format: %s") % input_format
                    )
            comments.extend(CommentProcessor(FilterBadChars(str_io), font_size))
    if progress_callback:
        progress_callback(len(input_files), len(input_files))
    comments.sort()
    return comments


@export
def GetCommentProcessor(input_file):
    return CommentFormatMap.get(ProbeCommentFormat(input_file))


def main():
    logging.basicConfig(format="%(levelname)s: %(message)s")
    if len(sys.argv) == 1:
        sys.argv.append("--help")
    parser = argparse.ArgumentParser()
    parser.add_argument(
        "-f",
        "--format",
        metavar=_("FORMAT"),
        help=_("Format of input file (autodetect|%s) [default: autodetect]")
        % "|".join(i for i in CommentFormatMap),
        default="autodetect",
    )
    parser.add_argument("-o", "--output", metavar=_("OUTPUT"), help=_("Output file"))
    parser.add_argument(
        "-s",
        "--size",
        metavar=_("WIDTHxHEIGHT"),
        required=True,
        help=_("Stage size in pixels"),
    )
    parser.add_argument(
        "-fn",
        "--font",
        metavar=_("FONT"),
        help=_("Specify font face [default: %s]") % _("(FONT) sans-serif")[7:],
        default=_("(FONT) sans-serif")[7:],
    )
    parser.add_argument(
        "-fs",
        "--fontsize",
        metavar=_("SIZE"),
        help=(_("Default font size [default: %s]") % 25),
        type=float,
        default=25.0,
    )
    parser.add_argument(
        "-a",
        "--alpha",
        metavar=_("ALPHA"),
        help=_("Text opacity"),
        type=float,
        default=1.0,
    )
    parser.add_argument(
        "-dm",
        "--duration-marquee",
        metavar=_("SECONDS"),
        help=_("Duration of scrolling comment display [default: %s]") % 5,
        type=float,
        default=5.0,
    )
    parser.add_argument(
        "-ds",
        "--duration-still",
        metavar=_("SECONDS"),
        help=_("Duration of still comment display [default: %s]") % 5,
        type=float,
        default=5.0,
    )
    parser.add_argument(
        "-fl", "--filter", help=_("Regular expression to filter comments")
    )
    parser.add_argument(
        "-flf",
        "--filter-file",
        help=_("Regular expressions from file (one line one regex) to filter comments"),
    )
    parser.add_argument(
        "-p",
        "--protect",
        metavar=_("HEIGHT"),
        help=_("Reserve blank on the bottom of the stage"),
        type=int,
        default=0,
    )
    parser.add_argument(
        "-r",
        "--reduce",
        action="store_true",
        help=_("Reduce the amount of comments if stage is full"),
    )
    parser.add_argument(
        "file", metavar=_("FILE"), nargs="+", help=_("Comment file to be processed")
    )
    args = parser.parse_args()
    try:
        width, height = str(args.size).split("x", 1)
        width = int(width)
        height = int(height)
    except ValueError:
        raise ValueError(_("Invalid stage size: %r") % args.size)
    Danmaku2ASS(
        args.file,
        args.format,
        args.output,
        width,
        height,
        args.protect,
        args.font,
        args.fontsize,
        args.alpha,
        args.duration_marquee,
        args.duration_still,
        args.filter,
        args.filter_file,
        args.reduce,
    )


if __name__ == "__main__":
    main()
